Ganymede Mems Speakers Can Be Retrofitted Into Standard Enclosures

USound GmbH’s Ganymede Achelous and Adap MEMS speakers with their compact size of 4.7 mm x 6.7 mm x 1.6 mm are ideal for in-ear headphone designs and wearables such as true-wireless headsets. The perfect addition to traditional speakers, they can be easily retrofitted into standard enclosures to improve treble or implement 3D audio systems.

GANYMEDE MEMS SPEAKERS CAN BE RETROFITTED INTO STANDARD ENCLOSURES

Achelous is a MEMS speaker designed for occluded-ear headphones. It can also be used as a micro-tweeter for wearables and array applications. This speaker provides higher excursion and more damping ideal for in-ear designs. In free-field, the resonance is lower than Adap, which allows a lower crossover frequency.

Adap is a MEMS-based micro-speaker for occluded-ear headphones and can also be used as micro-tweeter for wearables and array applications. It is optimized as a tweeter with high SPL above resonance. The Adap has a higher resonance frequency.

USound GmbH’s Ganymede Achelous and Adap MEMS speakers with their compact size of 4.7 mm x 6.7 mm x 1.6 mm are ideal for in-ear headphone designs and wearables such as true-wireless headsets. The perfect addition to traditional speakers, they can be easily retrofitted into standard enclosures to improve treble or implement 3D audio systems.

Achelous is a MEMS speaker designed for occluded-ear headphones. It can also be used as a micro-tweeter for wearables and array applications. This speaker provides higher excursion and more damping ideal for in-ear designs. In free-field, the resonance is lower than Adap, which allows a lower crossover frequency.

Adap is a MEMS-based micro-speaker for occluded-ear headphones and can also be used as micro-tweeter for wearables and array applications. It is optimized as a tweeter with high SPL above resonance. The Adap has a higher resonance frequency.

Ganymede Mems Speakers Can Be Retrofitted Into Standard Enclosures

Features

  • Small form factor
  • High flexibility for acoustic system integration
  • Low heat generation
  • No magnetic field
  • High input impedance suitable for thin wires or PCB traces
  • Efficient MEMS actuator
    • High force and displacement
    • High signal-to-noise ratio (SNR)
    • Low power consumption compared to conventional speaker systems
    • Creates a clear and crisp sound for a vivid audio experience
  • High integratability
    • Easy integration with MEMS microphones
    • Capable of operating as a piezo microphone
    • The compact size enables array/matrix configurations and audio functionalities, such as ultrasonic applications and beam-forming
  • Noise cancellation
    • Ideal speaker technology for active noise cancellation applications
    • Perfect for 3D audio applications for augmented and virtual reality

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